A ureteral stent is provided. The stent may include a first section having a first wall defining a first luminal section. The stent may further include a second section having a second wall defining a second luminal section. The second section can be enabled to substantially close at times external pressure is applied to the stent.

The present invention relates to a bellows framework having a concave-convex structure on at least one of outer and inner sides using three-dimensional printing technology and a method of producing thereof, and an artificial tracheal replacement comprising an epithelium part formed on the inner side of the bellows framework and an annular cartilage part formed along the circumference of concave-convex grooves on the outer side and a method of producing thereof.

A disposable device for absorbing urine and/or bodily fluids in the urethra having a cylindrical body having a top and bottom end. The body is made of absorbent material that expands upon contact with urine and bodily fluids and includes a string connected to the bottom end of the body for removing the device from the urethra. The device can include a vasodilator in or on a surface of the body and can be used to treat urinary incontinence and/or erectile dysfunction by inserting into the urethra and removing the device after it has been impregnated with fluid. The device can be included in a kit with a plunger for insertion.

Aspects of the disclosure relate methods and synthetic scaffolds for regenerating hallow organs present in the respiratory system such as bronchus tissue.

There is provided a tubular vitrigel composed of a laminate in which a plurality of plate-like vitrigels each having a through-hole are laminated in a thickness direction so that the through-holes are continuous.

Biodegradable implants including an ECM material and methods for treating a pelvic floor condition are described. ECM particles can be present within or on the surface of a pelvic implant, such as a biodegradable mesh, a pouch, or a urethral stent. After implantation the implant can provide tissue support, degrade over a period of time, and deposit the ECM material in the implantation area for regeneration of tissue and long term benefit.

Tissue adhesions using surgical adjuncts and medicants are provided. In general, an implantable adjunct can have one or more medicants releasably retained therein that are configured to induce tissue adhesions. The adjunct can be configured to be applied to lung tissue in conjunction with surgical staples using a surgical stapler. Pleurodesis can be encouraged through delivery of the adjunct to the lung tissue.

Provided herein are inks including decellularized extracellular matrix (dECM) particles and scaffolds made from the inks. Also provided are methods of making the scaffolds and applications for the scaffolds. In an embodiment, a porous scaffold comprises dECM particles and an elastomer, wherein the scaffold is planar having a thickness of about 100 μm or greater, the scaffold comprises irregularly shaped pores having a random orientation and distribution throughout the scaffold, and the scaffold is free of crosslinking between the molecular components of the scaffold.

Compositions and methods of transplanting cells by grafting strategies into solid organs (especially internal organs) are provided. These methods and compositions can be used to repair diseased organs or to establish models of disease states in experimental hosts. The method involves attachment onto the surface of a tissue or organ, a patch graft, a “bandaid-like” covering, containing epithelial cells with supporting early lineage stage mesenchymal cells. The cells are incorporated into soft gel-forming biomaterials prepared under serum-free, defined conditions comprised of nutrients, lipids, vitamins, and regulatory signals that collectively support stemness of the donor cells. The graft is covered with a biodegradable, biocompatible, bioresorbable backing used to affix the graft to the target site. The cells in the graft migrate into and throughout the tissue such that within a couple of weeks they are uniformly dispersed within the recipient (host) tissue. The mechanisms by which engraftment and integration of donor cells into the organ or tissue involve multiple membrane-associated and secreted forms of MMPs.

Methods are disclosed for dissecting a mucosa and a submucosa from a muscularis propria from a region of the esophagus of a subject. These methods include injecting submucosally into the region of the esophagus of the subject a pharmaceutical composition comprising a urinary bladder extracellular matrix (ECM) hydrogel, to form a cushion between the submucosa and the underlying muscularis propria at the region of the esophagus, wherein the ECM hydrogel has the following characteristics: a) a time to 50% gelation of less than 20 minutes at a temperature of about 37° C.; b) a flow viscosity suitable for infusion into the esophagus; and c) a stiffness of about 10 to about 400 Pascal (Pa).